KR101405788B1 - Dock for a portable electronic device - Google Patents

Abstract

The present invention relates to a dock for receiving a portable electronic device, the dock including: a housing including a hole; A support portion coupled to an inner wall of the housing, the support portion being elastically deformable; And a connector received in the support and extending through the hole to be in electrical communication with the portable electronic device and having a wiring for data transfer from the portable electronic device, And is elastically deformed in response to the movement in the direction other than the axial direction of the rotor.

Description

[0001] DOCK FOR A PORTABLE ELECTRONIC DEVICE [0002]

The present application relates to a charging and / or data transfer dock for portable electronic devices.

Various electronic devices, including portable electronic devices, have been in widespread use, and these electronic devices can provide various functions including, for example, telephone, electronic correspondence, and other personal information manager (PIM) have. Portable electronic devices include, for example, various types of mobile stations with wireless 802.11 or Bluetooth capabilities, such as simple cell phones, smart phones, wireless personal digital assistants (PDAs), tablets and laptop computers do.

Portable electronic devices, such as PDAs or smart phones, are typically designed as a handheld type of handheld device (i.e., a device of a size and shape that can be held, carried and carried by a person) Is easy. Such portable electronic devices are often placed in a dock for charging or for data transfer, where the data transfer involves the transmission of information, either optically or electrically, from the dock to the portable electronic device or vice versa . Some docks can perform both charging and data transfer. In the case of such docks and portable electronic devices, the portable electronic device and the dock may be damaged when attempting to connect without properly aligned.

It is an object of the present invention to provide a charging and / or data transfer dock for electronic devices.

In one aspect of the present invention, there is provided a dock for accommodating a portable electronic device, comprising: a housing including a hole; A support portion coupled to an inner wall of the housing, the support portion being elastically deformable; And a connector received in the support and extending through the hole to be in electrical communication with the portable electronic device and having a wiring for data transfer from the portable electronic device, Is resiliently deformed in response to movement in a direction other than the axial direction of the dock. The connector may be a micro HDMI connector. The connector may be a micro USB connector, and the wiring may receive data from the electronic device. The connector may be a charging connector.

In another aspect of the present invention, there is provided a dock connector assembly comprising: a support portion configured to be coupled to an inner wall of a dock, the portion being elastically deformable; And a connector accommodated in the support portion and extending through the hole so as to be in electrical communication with the portable electronic device and having wiring for data transmission from the portable electronic device, And is resiliently deformed in response to movement in a direction other than the axial direction.

In another aspect, the support includes an elastically deformable spring element, wherein a cross-sectional area of the rib is reduced between an upper end of the spring element and a lower end of the spring element, the upper end being disposed adjacent the aperture of the housing .

In yet another aspect, a collar is disposed adjacent the connector within the housing to limit translational movement of the connector.

According to the present invention, it is possible to quickly and easily connect the portable electronic device with the charging and / or data transfer dock. In addition, by compensating for misalignment between the connector of the dock and the mating connector of the portable electronic device, damage due to stress applied to the portable electronic device and the dock during connection and removal can be prevented. In addition, it is possible to prevent dust and contaminants from entering into the dock, thereby extending the service life of the dock.

Embodiments of the present application will now be described by way of example only with reference to the accompanying drawings, in which:
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram briefly showing components including internal components of a portable electronic device; FIG.
2 is an isometric view of a portable electronic device housed in a dock according to an embodiment;
Fig. 3 is a side view showing a portable electronic device accommodated in the dock of Fig. 2 in a state where a part of the housing of the dock is removed; Fig.
FIG. 4 is a front view of the recess of the dock of FIG. 2; FIG.
5 is a sectional view taken along the line 5-5 of Fig. 4, showing the recess of the dock of Fig. 2, viewed from the upper side;
Figs. 6A and 6B are front views schematically showing a state in which the connector of the dock and the mating connector of the portable electronic device are misaligned; Fig.
FIG. 7 is a front sectional view showing the recess of the dock according to another embodiment; FIG.
Figure 8 is an isometric view of a dock according to another embodiment with the recharging connector in a retracted position;
Figure 9 is an isometric view of the dock of Figure 8 with the recharging connector in the extended position;
10 is a sectional view of the dock of Fig. 8 as viewed from the front; Fig.
11 is an exploded view of the dock of Fig. 8;
12 is an isometric cross-sectional view of the dock of Fig. 8 as viewed from the side;
Fig. 13 is an isometric sectional view of the dock of Fig. 8 viewed from above; Fig.
FIG. 14 is an isometric sectional view of the dock of FIG. 8 as viewed from below; FIG.
15 is an isometric view similar to that of Fig. 14, showing additional components of the dock; Fig. And
16 is an isometric cross-sectional view of the spring element of the dock as viewed from the lower side according to another embodiment.

Hereinafter, a dock for accommodating a portable electronic device will be described. The dock includes a support for the connector, the support including an elastically deformable portion for allowing the connector to move relative to the dock when a force is applied.

BRIEF DESCRIPTION OF THE DRAWINGS For simplicity and clarity in illustration, like numerals throughout the drawings may be used repeatedly to designate corresponding or analogous elements. A number of details are set forth in order to facilitate understanding of the embodiments described herein, and of course, embodiments may be practiced without these details. In other instances, well-known methods, procedures, and components have not been described in detail in order to avoid obscuring the embodiments described herein. The following description is not intended to limit the scope of the embodiments described herein.

BRIEF SUMMARY OF THE INVENTION The present invention, broadly speaking, relates to a dock for a portable electronic device according to the embodiments described herein. The dock may be a mobile or handheld wireless communication device, such as, for example, a wireless pager, a cell phone, a smart phone, a wireless organizer, a tablet, a GPS system and a personal digital assistant May be configured to receive a portable electronic device. The portable electronic device may also be a portable electronic device that does not have wireless communication capabilities, such as a handheld electronic gaming device, a digital photo album, a digital camera, or other device. In the present invention, the portable electronic device is not a mandatory one, but is preferably a handheld device.

An example of the portable electronic device 100 is shown in a block diagram in Fig. The portable electronic device 100 includes a number of components, such as the processor 102, which controls the overall operation of the portable electronic device 100. Communication functions, including data and voice communications, are performed through the communication subsystem 104. The data received by the portable electronic device 100 is decompressed by the decoder 106 and decoded. The communication subsystem 104 sends and receives messages to and from the wireless network 120. Wireless network 120 may be any type of wireless network including, but not limited to, a data wireless network, a voice wireless network, and a network that supports both voice and data communications.

The portable electronic device 100 is powered by the power pack 122, such as one or more rechargeable batteries or ports for an external power supply. The dock interface 140 may be in electrical communication with the dock 150 to charge the power pack 122 and / or provide a data connection for the data port 126 of the portable electronic device 100. Generally, when the electrical activity of one component affects the electrical activity of another component, these components are in electrical communication with each other. This electrical communication relationship includes direct electrical contact to enable current flow. The dock interface 140 may include one or more mating connectors for electrical communication with the connector of the dock 150. The dock 150 may also be in electrical communication with one or more of a power source 142 and a multimedia device 144 such as, for example, a television, monitor, projector or other output device, have. In some cases, such a communication relationship may be made in an electrical or optical manner, or in a combination of electrical and optical methods.

The processor 102 may include other components, such as random access memory (RAM) 108, a memory 110, a display 112, an input device 114, an auxiliary input / output I / O) subsystem 124, a data port 126, a speaker 128, a microphone 130, a short range communication unit 132, and other device subsystems 134. The processor 102 may interact with an orientation sensor, such as an accelerometer 136, which may be used to detect the direction of the reaction force caused by gravity or gravity.

The portable electronic device 100 uses a subscriber identity module (SIM) or a removable user identification module (RUIM) card 138 for communication with a network, such as the wireless network 120, to identify the network access subscriber. Optionally, the user identification information may be programmed into the memory 110.

The portable electronic device 100 includes a software program or component 118 and an operating system 116 that are executed by the processor 102 and are typically stored in a persistent updatable store such as memory 110. [ A separate application or program may be communicated over the wireless network 120, auxiliary I / O subsystem 124, data port 126, short-range communication subsystem 132, or other suitable subsystem 134, Or may be loaded into the electronic device 100.

A received signal, such as a text message, an e-mail message, or a download web page, is processed by the communications subsystem 104 and then input to the processor 102. Processor 102 processes the received signal to enable it to be output to display 112 and / or auxiliary I / O subsystem 124. A subscriber may generate a data item, e. G., An e-mail message, that may be transmitted across the wireless network 120 via the communications subsystem 104. Even in the case of voice communication, the overall operation of the portable electronic device 100 is similar. The speaker 128 outputs the audible information in which the electrical signal has been converted, and the microphone 130 converts the audible information thus obtained into an electrical signal for processing.

An example dock 150 for receiving the portable electronic device 100 is shown in Figs. The dock 150 includes a housing 200 configured to receive the portable electronic device 100. In one example, the housing 200 includes a seating portion 302 and a support wall 300 for receiving the portable electronic device 100. Generally, the support wall 300 and the seating portion 302 are positioned within the accommodated portable electronic device 100 (although the seating portion 302 may bear more weight than the support wall 300 in some embodiments described herein) ) Of the weight. 3, the edge surface 304 of the portable electronic device 100 contacts the seating portion 302 of the housing 200, and the rear surface 306 of the portable electronic device 100 contacts the housing 200 As shown in Fig. The size and shape of the seating part 302 and the supporting wall 300 and the angle formed by the seating part 302 and the supporting wall 300 are selected to accommodate portable electronic devices 100 of different sizes and types .

The housing 200 may be made of, for example, molded plastic, machined metal, or wood. The housing may be a single component or an assembly of a plurality of components.

The dock 150 includes a connector support assembly 308 coupled to an interior surface of the housing 200. Generally, when the movement of one component affects the movement of another component, these components are components that are coupled together. Such a bond may be, for example, a permanent bond made by welding, or it may be an essentially recoverable bond, such as a bond using a fastener. This coupling may also include direct contact between the two components, or the coupling components may be spaced apart from one another with additional components being provided to achieve coupling between the two components have. By way of example, a lug 312 of the support assembly 308 is coupled to a threaded receptacle component 314 extending from the bottom surface 316 of the mount 302 by a screw 310, (308) may be coupled to the housing (200).

4, the connector support assembly 308 is configured to receive the connector 400. As shown in FIG. The connector 400 may be a connector for charging, a data connector, or a connector capable of both charging and data transfer. Such a connector 400 may support electrical connections, optical connections, or a combination of these. The connection of the connector 400 extends through a hole 402 located in the seat 302. When the portable electronic device 100 is received in the dock 150, the connector 400 is electrically coupled to the portable electronic device 100 to charge the portable electronic device 100 and / or provide data connection with the portable electronic device. Or optically communicated. Generally, when the portable electronic device 100 is supported by the dock 150, it can be said that the portable electronic device 100 is accommodated in the dock. Likewise, if the first component is supported by the second component, the first component may be housed in the second component. In this case, the first component may be coupled to the second component, or may not be coupled to the second component, and may also move relative to the second component.

The connector support assembly 308 includes a support 404, a spring element 406 received in the support 404 and a flexible pad disposed on the base 408 of the support 404. The base 408 of the support 404 limits movement of the connector 400 in the z-direction to facilitate engagement of the connector 400 with the mating connector of the portable electronic device 100. The support portion 404 is provided with an opening (not shown) so that the wiring (conductor or optical cable (not shown)) of the connector 400 can pass through the opening.

The spring element 406 includes a passageway 500 for receiving a connector 400 as shown in FIG. The passageway 500 extends between the upper end of the spring element 406 and the lower end of the spring element 406. A collar 418 is disposed at the upper end of the spring element 406 and a rib 410 extends from the inner wall 502 of the passageway 500. The collar 418 includes a contact surface 420 adjacent the connector 400 to limit translational movement of the connector 400 in the x- and y-directions. The collar 418 may be configured to fully or partially surround the connector 400.

The rib 410 extends in a direction perpendicular to the passageway 500 and is elastically deformable to accommodate movement of the connector 400. The rib 410 contacts the connector 400 to hold the connector 400 at a starting position inside the passage 500. [ The spring element 406 is deflected to the starting position and the unmodified shape is shown in Fig. The rib 410 of the spring element 406 may be elastically deformed by the movement of the connector 400 in a direction other than the axial direction. The relative amount of movement of the connector 400 relative to the connector support assembly 308 may be determined by one or both of the stiffness of the rib 410 and the size of the hole 402.

The pad is resiliently deformable to accommodate movement of the connector 400 in the z-direction to some extent. This movement may occur in response to a rotation of the connector 400 or in response to a force applied along the z-axis. The pad may be forced into engagement with the connector 400 to allow the connector 400 to deflect toward the mating connector of the portable electronic device 100 to absorb the tolerance. The pad is deflected into an undeformed shape.

The spring element 406 is formed of a flexible material such as, for example, silicone rubber, urethane rubber, or cork. Alternatively, rigid plastics with flexible fingers may be used. The spring element 406 may be configured to completely surround the connector 400 as shown in FIG. 5, or may be configured to partially surround the connector 400. The ribs of the spring elements 406 may be provided in different numbers as shown in the figure. This spring element 406 also allows for relative movement of the connector 400 relative to the connector support assembly 308 and allows any type of spring element to be engaged as long as it deflects the connector 400 to a starting position within the hole 402 Can be used.

In operation, the user can visually and / or tactually align the mating connector of the connector 400 of the dock 150 with the portable electronic device 100 and then move the mating connector to move the connector 400 ). When the connector mating with the connector 400 is misaligned in the x-direction and / or the y-direction, the connector 400 is imposed by the portable electronic device 100. In response to this force, the ribs 410 and pads of the spring element 406 are resiliently deformed to accommodate the rotation of the connector 400. Multiple forces may be applied to the connector 400 in different directions while the user attempts to connect the connector of the dock 150 with the portable electronic device 100. [ The exemplary dock 150 of Figure 2 includes a single connector 400 so that once the connection with the portable electronic device 100 is completed the connector 400 and portable The electronic device 100 is returned to the starting position. In the case of the heavy portable electronic device 100, the rib 410 may remain in the deformed position until the portable electronic device 100 is removed from the dock 150.

Two examples of misalignment between the connector 400 and the mating connector of the portable electronic device 100 are shown in Figures 6A and 6B. Because the force imposed by the mating connector of portable electronic device 100 is absorbed by spring element 406 rather than connector 400, dock 150, as described herein, It is possible to prevent damage to the semiconductor device.

The connector support assembly 308 may be comprised of any type of support coupled to the housing 200 and includes a resiliently deformable portion in response to movement of the connector 400. [ Alignment components may also be provided to facilitate positioning of the mating connector of the portable electronic device 100 with respect to the connector 400. Such an alignment component may be, for example, a rail, a pin or a slot for guiding the portable electronic device 100 in place.

As another example, as shown in FIG. 7, the ribs 710 may extend in a generally horizontal direction at the spring element 406. Optionally, the ribs may be oriented at a predetermined angle between the vertical and horizontal directions.

As another example, the connector may extend through an aperture formed in the support wall or other location to receive a mating connector disposed at different locations of the portable electronic device.

Optionally, the collar 418 may form part of the seating portion 302, although the collar 418 is shown as part of the spring element 406. As another example, spring element 406 may not include collar 418. In this embodiment, the rotation of the connector 400 with respect to the housing 200 and the translational movement in the x-direction and the y-direction are all possible.

8 and 9, another example of the dock 150 of the portable electronic device 100 is shown schematically. In this example, the dock 150 includes holes 800, 802, and 804 that extend through the seating portion 302 of the housing 200. First and second data connectors 806 and 808 extend through holes 800 and 802, respectively. A recharging connector 810 extends through the hole 804. When the portable electronic device 100 is received in the dock 150, the connectors 806, 808, and 810 are in electrical communication with the portable electronic device 100 to charge the portable electronic device 100 while providing data connectivity . In one example, the first data connector 806 is a micro HDMI connector for transferring data to the multimedia device, and the second data connector 808 is a micro USB connector for exchanging data with other electronic devices. Other types of data connectors are also possible. Further, the charging connector 810 may also transmit data.

The connectors 806, 808 and 810 are mounted on a connector support assembly 812 coupled to the inner surface of the housing 200. 10, the lug 818 of the support assembly 812 is coupled to the threaded receiving component 1006 extending from the bottom surface 1010 of the mount portion 302 by a screw 816, (812) is coupled to the housing (200). Other devices for coupling the connector support assembly to the housing 200 are also possible.

8, 9 and 10, the connector support assembly 812 includes a support tray 1000, a spring element 1002 disposed in the support tray 1000, and a base 1008 of the support tray 1000. [ And a pad 1004 disposed between the spring element 1002 and the spring element 1002. The spring element 1002 includes a tab 820 that mates with the opening 822 of the front wall 824 of the support tray 1000 to substantially secure the spring element 1002 against the support tray 1000 . Other variations for securing the spring element 1002 to the support tray 1000, including fasteners such as screws, rivets or staples, glue, or other snap-in fasteners Devices are also possible. The spring element 1002 may also be sized to allow interference fit between the spring element 1002 and the connectors 806, 808 to be achieved.

Spring element 1002 includes passages 1100, 1102, and 1104 as shown in FIG. Passages 1100,1102 and 1104 extend between the lower end 1200 and upper end 1202 of the spring element 1002. Passageways 1100, 1102 and 1104 accommodate first and second data connectors 806 and 808 and a recharging connector 810, respectively. The recharging connector 810 is movable in the z-direction through the passageway 1104 between the retracted position as shown in Fig. 8 and the extended position as shown in Fig. The recharging connector 810 is generally a floating connector that is biased toward the retracted position and can be moved to the extended position by magnetism. The charging connector 810 is received in the passage 1104 so that the charging connector 810 can slide relative to the passage.

A collar 1018 is disposed in the upper end portion 1202 of the spring element 1002 so as to surround the passages 1100 and 1102 and a rib 1012 extends from the inner wall 1014 of the passages 1100 and 1102. The contact surface 1204 of the collar 1018 abuts the connectors 806 and 808 to limit the translation of the connectors 806 and 808 in the x- and y-directions. The collar 1018 may be configured to fully or partially surround the connectors 806 and 808.

Ribs 1012 extend from inner walls 1014 and 1016 of passages 1100 and 1102 of spring element 1002, respectively. The ribs 1012 contact the first and second data connectors 806 and 808 to hold the connectors 806 and 808 in the starting positions within the individual passageways 1100 and 1102. [ The spring element 1002 is deflected to an undeformed shape as shown in FIG. 13 or deflected to a slightly deformed state in which a deformation may occur to some extent in response to interference with the connectors 806 and 808. The amount of movement of the connectors 806 and 808 relative to the connector support assembly 812 may be determined by one or both of the stiffness of the spring element 1002 and the dimensions of the holes 800 and 802. [ Spring element 1002 facilitates independent movement of connectors 806, 808, and 810. The elastic deformation force caused by the force applied to one of the connectors is not transmitted to the other connector through the spring element 1002. [

The spring element 1002 is formed of a flexible material such as, for example, silicone rubber, urethane rubber or cork. Alternatively, rigid plastics with flexible fingers may be used.

Since the mating connectors of the portable electronic device 100 are fixed relative to each other, the mating tolerance may result in displacement of the mating connector when compared to the manufacturing specifications of the portable electronic device 100. [ These added tolerances are generally the sum of the internal tolerances of the respective mating connector components, the tolerances of the components associated with the mating connector elements, and the tolerances in the assembly process. The connector support assembly 812 is configured to provide a spring element 1002 that allows the connectors 806 and 808 of the dock 150 to pivot to align with the mating connector of the portable electronic device 100, Thereby compensating for the addition tolerance of the mating connector of the device 100. [ Since the connectors 806 and 808 are not fixed with respect to the dock 150, tolerance regarding the position of the connector inside the dock 150 can be mitigated as compared with the case where the connector is fixed inside the dock, The fabrication of the semiconductor device 150 may be simplified.

The base 1008 of the support tray 1000 serves to limit the movement of the connectors 806 and 808 in the z-direction to facilitate engagement with the mating connector of the portable electronic device 100. Pad 1004 is resiliently deformable to accommodate movement of connectors 806, 808 in the z-direction to some extent. The pad 1004 may be forced into engagement with the connectors 806 and 808 to bias the connectors 806 and 808 toward the mating connector of the portable electronic device 100 to absorb the tolerance. The pad 1004 is deflected into an undeformed shape as shown in FIG. 10 and is compressible in response to a force applied downward or axially on the connectors 806, 808. As an example, the pad 1004 is formed through two-shot molding or overmolding on the support tray 1000 to reduce the number of components of the dock 150 .

As shown in FIG. 11, a hole 1106 extends through the pad 1004. Referring again to FIG. 10, a hole 1106 is formed through the connectors 806 and 808 that protrude from the opposing surfaces of the printed circuit boards (PCBs) 1108 and 1110 of the first and second data connectors 806 and 808 And is aligned with a hole lead. The holes 1106 generally serve to protect the leads and solder joints of the PCBs 1108 and 1110 from stresses applied during assembly and use when the portable electronic device 100 is inserted into or removed from the dock 150 do.

14, the support tray 1000 includes an opening 1400 formed through the rear wall 1402 of the support tray 1000 so as to extend through the wiring 1404 of the connectors 806, 808, ). Wiring 1404 may be a flexible cable coupled between connectors 606, 608 and 610 and an electronic device (not shown), a multimedia device (not shown), and a power source (not shown), respectively. As an example, a flexible cable is coupled to a connector (not shown) mounted on the main PCB 1500 coupled to the interior of the housing 200, as shown in FIG. Alternatively, the flexible cable may be soldered to the main PCB 1500. [ If the main PCB is not included, the flexible cable may be brazed, crimped, or inserted into the mating pin of one or more connectors. A cable for electrically communicating with the charging device, the multimedia device, and the power source may extend through the opening 1502. [

In operation, the user may visually and / or tactically align the mating connector of the portable electronic device 100 with the connectors 806, 808, 810 of the dock 150 and then move the mating connector 808, and 810, respectively. One or both of the connectors 806 and 808 is imposed by the portable electronic device 100 when the mating connector and connectors 806 and 808 are not aligned in the x-direction and / or the y-direction . The ribs 1012 and pads 1004 of the spring element 1002 are resiliently deformed to accommodate the rotation of one or both of the connectors 806 and 808 made in response to this force. Multiple forces may be applied to the connectors 806 and 808 in different directions while the user attempts to connect the connector of the dock 150 with the portable electronic device 100. [ The charging connector 810 is moved toward the mating charging connector of the portable electronic device 100 when the magnet of the mating charging connector is located near the charging connector 810. [ Once connected, the connectors 806, 808 may be returned to their starting position, or one or both of the connectors 806, 808 may be removed due to the add tolerance of the mating connector of the portable electronic device 100 It may remain unaligned with the starting position. The connectors 806 and 808 can be pivoted to align with the mating connector so that the add tolerance is not a problem as compared to when one or more mating connectors are in a fixed state.

Referring to Fig. 16, as another example, the rib 1012 includes a stepped portion 1600. Fig. Two or more stepped portions 1600 are spaced along the length of the rib 1012 to reduce the rib cross sectional area between the upper end portion 1202 and the lower end portion 1200 of the spring element 1002. [ When the mating connector of the portable electronic device 100 applies a force to the connectors 806 and 808 in the x- and / or y-directions, the maximum compressive force . By providing a rib having a larger cross-sectional area in the vicinity of the upper end portion 1202, the force transmitted to the lower end portion 1200 of the spring element 1202 is reduced. Thus, for example, less damage to the soldered joints between the PCBs 1108, 1110 and the connectors 806, 808 may occur. Likewise, the stress resulting from applied forces during alignment imposed by the mating connector of shifting, tilting or other portable electronic device 100 is reduced.

The recharging connector 810 may be replaced by a fixed connector that is mounted within the connector support assembly 812 in a manner similar to the data connectors 806 and 808. [ Further, although three connectors are shown in the example of Figs. 9 to 15, a different number of connectors may be used.

The connector support assembly and connector (s) may also be provided as a single connector assembly, which may be mounted to the dock. The connector support assembly may be manufactured to meet specifications associated with the docking of different portable electronic devices.

Optionally, the collar 1018 may form part of the seat 302, although the collar 1018 is shown as part of the spring element 1002. As another example, spring element 1002 may not include collar 1018. In this example, rotation of the connectors 806 and 808 relative to the housing 200 and translation in the x- and y-directions are possible.

The dock 150 described herein may realize one or more of the advantages as described above. The dock 150 is configured to facilitate quick and easy connection with a portable electronic device. By compensating for some degree of misalignment between the connector of the dock 150 and the mating connector of the portable electronic device it is possible to reduce the amount of contact between the connector of the dock 150 and the connector of the portable electronic device due to the stress applied to both the portable electronic device 100 and the dock 150, Damage can be prevented. Dust and contaminants may be prevented from entering into the dock 150 by the collar, which may serve as a seal, so that the life of the dock 150 may be extended.

It will be understood by those skilled in the art that the foregoing embodiments are provided for illustrative purposes only and that variations, modifications and variations of the specific embodiments may be made without departing from the scope of the present invention, which is defined only by the appended claims. There will be.

100: portable electronic device 102: processor
120: wireless network 140: dock interface
142: Power source 150: Dock
300: support wall 302:
308: Connector support assembly 400: Connector

Claims (20)

A dock for accommodating a portable electronic device,
A housing including a hole;
A support coupled to an inner wall of the housing, the support being elastically deformable at a portion thereof;
A connector accommodated in the support portion and extending through the hole so as to be in electrical communication with the portable electronic device, the connector having a wiring for data transmission from the portable electronic device; And
And a collar disposed adjacent the connector within the housing to limit translational movement of the connector,
Wherein the connector is pivotable relative to the collar and wherein a portion of the support is resiliently deformed in response to movement in a direction other than an axial direction of at least a portion of the connector. 2. The dock of claim 1, wherein the support comprises a spring element received in a support tray, the spring element being resiliently deformable. 3. The dock of claim 2, wherein the spring element includes a passage for receiving a connector, the passage including a rib for contacting a connector. delete The dock of claim 1, wherein the collar is configured to surround the connector at a location adjacent the hole. A dock for accommodating a portable electronic device,
A housing including a hole;
A support coupled to the inner wall of the housing and including a spring element received in the support tray; And
And a connector accommodated in the support portion and extending through the hole so as to be in electrical communication with the portable electronic device and having a wiring for data transmission from the portable electronic device,
Wherein the spring element includes a passage for receiving the connector, the passage including a rib for contacting the connector, the spring element responsive to movement in a direction other than an axial direction of at least a portion of the connector Elastically deformable,
Wherein a cross sectional area of the rib is reduced between an upper end of the spring element and a lower end of the spring element, the upper end being disposed adjacent the hole of the housing. 3. The dock of claim 2, wherein the spring element deflects the connector to a starting position within the passageway. A dock for accommodating a portable electronic device,
A housing including a hole;
A support coupled to an inner wall of the housing, the support being elastically deformable at a portion thereof;
A connector accommodated in the support portion and extending through the hole so as to be in electrical communication with the portable electronic device, the connector having a wiring for data transmission from the portable electronic device; And
A pad disposed on the support and resiliently deformable in response to axial movement of the connector,
Wherein a portion of the support is resiliently deformed in response to an off-axis movement of at least a portion of the connector. 2. The dock of claim 1, wherein each of the at least two connectors is independently movable relative to the housing. 3. The dock of claim 2, wherein the spring element comprises three passageways for receiving a first data connector, a second data connector, and a recharging connector. The dock of claim 1, wherein the housing includes a seat for receiving the portable electronic device, the hole extending through the seat. The dock of claim 1, wherein the connector is a micro HDMI connector. The dock of claim 1, wherein the connector is a micro USB connector and the wiring receives data from the electronic device. The dock according to claim 1, wherein the connector is a charging connector. A dock connector assembly comprising:
A support configured to be coupled to the inner wall of the dock, the support including a collar and a portion resiliently deformable; And
And a connector accommodated in the support portion in electrical communication with the portable electronic device accommodated by the dock and having a wiring for data transmission from the portable electronic device,
Wherein a portion of the support is resiliently deformed in response to translational movement in a direction other than an axial direction of at least a portion of the connector and pivoting with respect to the collar. 16. The connector assembly of claim 15, wherein the support comprises a spring element received in a support tray, the spring element being resiliently deformable. 17. The connector assembly of claim 16, wherein the spring element includes a passageway for receiving the connector, the passageway includes a rib for contacting the connector. A dock connector assembly comprising:
A support configured to be coupled to the inner wall of the dock and including a spring element received in a support tray, the spring element including a passageway and resiliently deformable; And
And a connector accommodated in the support portion and extending through the passage so as to be in electrical communication with the portable electronic device accommodated by the dock and having a wiring for data transmission from the portable electronic device,
Wherein the passage includes a rib for contacting the connector and the cross sectional area of the rib is reduced between the upper end of the spring element and the lower end of the spring element and the upper end is disposed adjacent the hole of the housing Respectively. 17. The connector assembly of claim 16, wherein the spring element deflects the connector to a starting position. 16. The connector assembly of claim 15, further comprising a collar disposed adjacent the connector within the housing to limit translational movement of the connector.

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